Exclusion of compromised pet data during simultaneous pet-mr acquisition

a technology of mr acquisition and pet data, applied in the field of combined petmr system and method for excluding pet data detected during, can solve the problems of mutual annihilation, the reliability of acquired pet data, and the inability of photomultiplier tubes and other photovoltaic devices to work well in magnetic fields, so as to improve pet data quality and avoid drawbacks of existing compensation systems

Active Publication Date: 2008-07-10
GENERAL ELECTRIC CO
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  • Abstract
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  • Application Information

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Benefits of technology

[0009]A system and method are provided for improving PET data quality in the presence of simultaneous MR data acquisitions. By excluding PET data acquired during active MR transmissions, the aforementioned drawbacks of existing compensation systems can be avoided.

Problems solved by technology

As these positrons travel through the tissues of the subject, they lose kinetic energy and ultimately collide with an electron, resulting in mutual annihilation.
These magnetic fields and RF pulses of MR imaging can affect the function of PET components, and consequently, the reliability of acquired PET data.
For example, photomultiplier tubes and other photovoltaics do not function very well in magnetic fields.
Similarly, RF pulses can cause increased noise in the PET detection signals.
Thus, PET data acquired at the time of an RF or gradient pulse might be considered suspect and, in some instances, may be unusable for PET reconstruction.
However, these techniques may not always be completely effective at eliminating the effects of MR transmissions on PET components and detected data quality, especially in higher tesla MR imaging.
In addition, the inclusion of RF shielding increases the cost and complexity of hybrid MR-PET systems.
Such methods also increase the cost and complexity, as well as the size, of MR-PET scanners.

Method used

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  • Exclusion of compromised pet data during simultaneous pet-mr acquisition
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  • Exclusion of compromised pet data during simultaneous pet-mr acquisition

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Embodiment Construction

[0020]Referring to FIG. 1, the major components of an exemplary hybrid PET-MR imaging system 10 that may incorporate embodiments of the present invention are shown. The operation of the system may be controlled from an operator console 12 which includes a keyboard or other input device 13, a control panel 14, and a display screen 16. The console 12 communicates through a link 18 with a separate computer system 20 that enables an operator to control the production and display of images on the display screen 16. The computer system 20 includes a number of modules, such as an image processor module 22, a CPU module 24 and a memory module 26. The computer system 20 may also be connected to permanent or back-up memory storage, a network, or may communicate with a separate system control 32 through link 34. The input device 13 can include a mouse, keyboard, track ball, touch activated screen, light wand, or any similar or equivalent input device, and may be used for interactive geometry p...

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Abstract

A system and method for simultaneously acquiring PET and MR data from a subject of interest with a hybrid PET-MR scanner includes monitoring transmission times of RF and gradient coils of the MR equipment and blanking segments of the PET data stream accordingly. By excluding PET data acquired during active MR transmissions, the remaining PET data used for image reconstruction will provide improved PET image quality.

Description

BACKGROUND OF THE INVENTION[0001]The present invention relates generally to positron emission tomography (PET) and magnetic resonance (MR) imaging, and more specifically, to a combined PET-MR system and method for excluding PET data detected during MR transmissions to improve overall data quality of a PET scan.[0002]PET imaging involves the creation of tomographic images of positron emitting radionuclides in a subject of interest. A radionuclide-labeled agent is administered to a subject positioned within a detector ring. As the radionuclides decay, positively charged photons known as “positrons” are emitted therefrom. As these positrons travel through the tissues of the subject, they lose kinetic energy and ultimately collide with an electron, resulting in mutual annihilation. The positron annihilation results in a pair of oppositely-directed gamma rays being emitted at approximately 511 keV.[0003]It is these gamma rays that are detected by the scintillators of the detector ring. W...

Claims

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Application Information

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Patent Type & Authority Applications(United States)
IPC IPC(8): G01T1/161G01R33/48
CPCG01R33/28G01T1/1603G01R33/481
Inventor HAWORTH, ROBERT H.ROSS, STEVEN G.STEARNS, CHARLES W.POLZIN, JASON A.GANIN, ALEXANDER
Owner GENERAL ELECTRIC CO
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